Optimization of Goaf Gas Drainage Parameters Based on Numerical Simulation Studying Fracture in Overlying Strata

机译：基于数值模拟研究覆盖层骨折的GoaF气体排水参数的优化

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Underground coal seam mining can redistribute the stress of the coal and rock, in which gas distribution and migration occurred. In order to draw out the gas in the goaf effectively, reduce the goaf gas emission and avoid the over ranging, the high level drilling site is employed for goaf gas drainage, and rock crack development situation and gas enrichment area are simulated by RFPA~(2D)-Integrated to locate the position of drilling hole. The result indicated that the caving-in zones and fracturing zones of the coal cave mined out area are 0-13m and 13-42mto the roof of the coal, respectively. The optimal position of drilling hole is 14-35m. The practice survey revealed that the overall quantity of gas extraction is 8.47m~3/min, and it solves the problem of goaf gas emission better. The result of simulation is accord with the field.

机译：地下煤层采矿可以重新分配煤炭和岩石的应力，其中发生气体分配和迁移。为了有效地在GOF中抽出气体，减少GOF气体排放并避免过度测距，高级钻探部位用于GOF煤气排水，RFPA模拟岩石裂纹发育情况和气体富集区域。（ 2D） - 聚集以定位钻孔的位置。结果表明，煤洞所开采面积的洞穴区域和压裂区分别为0-13米和13-42平方米。钻孔孔的最佳位置为14-35米。实践调查显示，气体提取总量为8.47米〜3 / min，它可以更好地解决了GOF气体排放的问题。模拟结果符合该领域。

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《International Symposium on Safety Science and Engineering in China》|2013年||共7页
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HAO Tian-xuan; JIN Zhi-chao; LI Feng;
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中图分类计算机设备安全;
关键词
the roof caving law; goaf gas distribution; RFPA~(2D) numerical simulation; gas extraction;

机译：屋顶洞穴法;Goaf天然气分配;RFPA〜（2D）数值模拟;气体提取;

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4. Optimization of Goaf Gas Drainage Parameters Based on Numerical Simulation Studying Fracture in Overlying Strata [C] . HAO Tian-xuan, JIN Zhi-chao, LI Feng International Symposium on Safety Science and Engineering in China . 2013

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Optimization of Goaf Gas Drainage Parameters Based on Numerical Simulation Studying Fracture in Overlying Strata

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